Sonographie der Prostata

Norberg M, Egevad L, Holmberg L, Sparén P, Norlén BJ, Busch C (1997) The sextant protocol for ultrasound-guided core biopsies of the prostate underestimates the presence of cancer. Urology 50(4):562–566

Beerlage HP, Aarnink RG, Ruijter E, Witjes JA, Wijkstra H, Van De Kaa CA, Debruyne FJ, De La Rosette J (2001) Correlation of transrectal ultrasound, computer analysis of transrectal ultrasound and histopathology of radical prostatectomy specimen. Prostate Cancer Prostatic Dis 4(1):56–62

Cheng S, Rifkin MD (2001) Color Doppler imaging of the prostate: important adjunct to endorectal ultrasound of the prostate in the diagnosis of prostate cancer. Ultrasound Q 17(3):185–189. https://doi.org/10.1097/00013644-200109000-00008

Lee HY, Lee HJ, Byun SS, Lee SE, Hong SK, Kim SH (2009) Classification of focal prostatic lesions on transrectal ultrasound (TRUS) and the accuracy of TRUS to diagnose prostate cancer. Korean J Radiol 10(3):244–251

Tamsel S, Killi R, Hekimgil M, Altay B, Soydan S, Demirpolat G (2008) Transrectal ultrasound in detecting prostate cancer compared with serum total prostate-specific antigen levels. J Med Imaging Radiation Oncol 52(1):24–28

Halpern EJ, Strup SE (2000) Using gray-scale and color and power Doppler sonography to detect prostatic cancer. AJR Am J Roentgenol 174(3):623–627

Grummet J, Gorin MA, Popert R, O’Brien T, Lamb AD, Hadaschik B, Radtke JP, Wagenlehner F, Baco E, Moore CM, Emberton M, George AK, Davis JW, Szabo RJ, Buckley R, Loblaw A, Allaway M, Kastner C, Briers E, Royce PL, Frydenberg M, Murphy DG, Woo HH (2020) „TREXIT 2020“: why the time to abandon transrectal prostate biopsy starts now. Prostate Cancer Prostatic Dis 23(1):62–65

Correas JM, Halpern EJ, Barr RG, Ghai S, Walz J, Bodard S, Dariane C, de la Rosette J (2021) Advanced ultrasound in the diagnosis of prostate cancer. World J Urol 39(3):661–676

Yunkai Z, Yaqing C, Jun J, Tingyue Q, Weiyong L, Yuehong Q, Wenbin G, Lifeng W, Jun Q (2019) Comparison of contrast-enhanced ultrasound targeted biopsy versus standard systematic biopsy for clinically significant prostate cancer detection: results of a prospective cohort study with 1024 patients. World J Urol 37(5):805–811

Li Y, Tang J, Fei X, Gao Y (2013) Diagnostic performance of contrast enhanced ultrasound in patients with prostate cancer: a meta-analysis. Acad Radiol 20(2):156–164

Postema AW, Frinking PJ, Smeenge M, De Reijke TM, De la Rosette JJ, Tranquart F, Wijkstra H (2016) Dynamic contrast-enhanced ultrasound parametric imaging for the detection of prostate cancer. BJU Int 117(4):598–603

Apfelbeck M, Clevert DA, Ricke J, Stief C, Schlenker B (2018) Contrast enhanced ultrasound (CEUS) with MRI image fusion for monitoring focal therapy of prostate cancer with high intensity focused ultrasound (HIFU)1. Clin Hemorheol Microcirc 69(1–2):93–100

Apfelbeck M, Chaloupka M, Schlenker B, Stief CG, Clevert DA (2019) Follow-up after focal therapy of the prostate with high intensity focused ultrasound (HIFU) using contrast enhanced ultrasound (CEUS) in combination with MRI image fusion. Clin Hemorheol Microcirc 73(1):135–143

Colleselli D, Bektic J, Schaefer G, Frauscher F, Mitterberger M, Brunner A, Schwentner C, Bartsch G, Horninger W, Pelzer AE (2007) The influence of prostate volume on prostate cancer detection using a combined approach of contrast-enhanced ultrasonography-targeted and systematic grey-scale biopsy. BJU Int 100(6):1264–1267

Aigner F, Pallwein L, Mitterberger M, Pinggera GM, Mikuz G, Horninger W, Frauscher F (2009) Contrast-enhanced ultrasonography using cadence-contrast pulse sequencing technology for targeted biopsy of the prostate. BJU Int 103(4):458–463

Tang J, Yang JC, Li Y, Li J, Shi H (2007) Peripheral zone hypoechoic lesions of the prostate: evaluation with contrast-enhanced gray scale transrectal ultrasonography. J Ultrasound Med 26(12):1671–1679

Taymoorian K, Thomas A, Slowinski T, Khiabanchian M, Stephan C, Lein M, Deger S, Lenk S, Loening SA, Fischer T (2007) Transrectal broadband-Doppler sonography with intravenous contrast medium administration for prostate imaging and biopsy in men with an elevated PSA value and previous negative biopsies. Anticancer Res 27(6c):4315–4320

Yang JC, Tang J, Li J, Luo Y, Li Y, Shi H (2008) Contrast-enhanced gray-scale transrectal ultrasound-guided prostate biopsy in men with elevated serum prostate-specific antigen levels. Acad Radiol 15(10):1291–1297

Mottet N, van den Bergh RCN, Briers E, Van den Broeck T, Cumberbatch MG, De Santis M, Fanti S, Fossati N, Gandaglia G, Gillessen S, Grivas N, Grummet J, Henry AM, van der Kwast TH, Lam TB, Lardas M, Liew M, Mason MD, Moris L, Oprea-Lager DE, van der Poel HG, Rouvière O, Schoots IG, Tilki D, Wiegel T, Willemse PM, Cornford P (2021) EAU-EANM-ESTRO-ESUR-SIOG guidelines on prostate cancer-2020 update. Part 1: screening, diagnosis, and local treatment with curative intent. Eur Urol 79(2):243–262

Ukimura O, Coleman JA, de la Taille A, Emberton M, Epstein JI, Freedland SJ, Giannarini G, Kibel AS, Montironi R, Ploussard G, Roobol MJ, Scattoni V, Jones JS (2013) Contemporary role of systematic prostate biopsies: indications, techniques, and implications for patient care. Eur Urol 63(2):214–230

Fütterer JJ, Briganti A, De Visschere P, Emberton M, Giannarini G, Kirkham A, Taneja SS, Thoeny H, Villeirs G, Villers A (2015) Can clinically significant prostate cancer be detected with multiparametric magnetic resonance imaging? A systematic review of the literature. Eur Urol 68(6):1045–1053

Drost FH, Osses DF, Nieboer D, Steyerberg EW, Bangma CH, Roobol MJ, Schoots IG (2019) Prostate MRI, with or without MRI-targeted biopsy, and systematic biopsy for detecting prostate cancer. Cochrane Database Syst Rev 4(4):CD12663

Weinreb JC, Barentsz JO, Choyke PL, Cornud F, Haider MA, Macura KJ, Margolis D, Schnall MD, Shtern F, Tempany CM, Thoeny HC, Verma S (2016) PI-RADS prostate imaging—reporting and data system: 2015, version 2. Eur Urol 69(1):16–40

Leitlinienprogramm Onkologie (Deutsche Krebsgesellschaft DK, AWMF) (2021) Interdisziplinäre Leitlinie der Qualität S3 zur Früherkennung, Diagnose und Therapie der verschiedenen Stadien des Prostatakarzinoms, Langversion 6.2. http://www.leitlinienprogramm-onkologie.de/leitlinien/prostatakarzinom/. Zugegriffen: 9. Jan. 2022

Kasivisvanathan V, Rannikko AS, Borghi M, Panebianco V, Mynderse LA, Vaarala MH, Briganti A, Budäus L, Hellawell G, Hindley RG, Roobol MJ, Eggener S, Ghei M, Villers A, Bladou F, Villeirs GM, Virdi J, Boxler S, Robert G, Singh PB, Venderink W, Hadaschik BA, Ruffion A, Hu JC, Margolis D, Crouzet S, Klotz L, Taneja SS, Pinto P, Gill I, Allen C, Giganti F, Freeman A, Morris S, Punwani S, Williams NR, Brew-Graves C, Deeks J, Takwoingi Y, Emberton M, Moore CM (2018) MRI-targeted or standard biopsy for prostate-cancer diagnosis. N Engl J Med 378(19):1767–1777

van der Leest M, Cornel E, Israël B, Hendriks R, Padhani AR, Hoogenboom M, Zamecnik P, Bakker D, Setiasti AY, Veltman J, van den Hout H, van der Lelij H, van Oort I, Klaver S, Debruyne F, Sedelaar M, Hannink G, Rovers M, Hulsbergen-van de Kaa C, Barentsz JO (2019) Head-to-head comparison of transrectal ultrasound-guided prostate biopsy versus multiparametric prostate resonance imaging with subsequent magnetic resonance-guided biopsy in biopsy-naïve men with elevated prostate-specific antigen: a large prospective multicenter clinical study. Eur Urol 75(4):570–578

Rouvière O, Puech P, Renard-Penna R, Claudon M, Roy C, Mège-Lechevallier F, Decaussin-Petrucci M, Dubreuil-Chambardel M, Magaud L, Remontet L, Ruffion A, Colombel M, Crouzet S, Schott AM, Lemaitre L, Rabilloud M, Grenier N (2019) Use of prostate systematic and targeted biopsy on the basis of multiparametric MRI in biopsy-naive patients (MRI-FIRST): a prospective, multicentre, paired diagnostic study. Lancet Oncol 20(1):100–109

Wegelin O, Exterkate L, van der Leest M, Kummer JA, Vreuls W, de Bruin PC, Bosch J, Barentsz JO, Somford DM, van Melick HHE (2019) The FUTURE trial: a multicenter randomised controlled trial on target biopsy techniques based on magnetic resonance imaging in the diagnosis of prostate cancer in patients with prior negative biopsies. Eur Urol 75(4):582–590

Johnson DC, Raman SS, Mirak SA, Kwan L, Bajgiran AM, Hsu W, Maehara CK, Ahuja P, Faiena I, Pooli A, Salmasi A, Sisk A, Felker ER, Lu DSK, Reiter RE (2019) Detection of individual prostate cancer foci via multiparametric magnetic resonance imaging. Eur Urol 75(5):712–720

Klotz L, Lughezzani G, Maffei D, Sánchez A, Pereira JG, Staerman F, Cash H, Luger F, Lopez L, Sanchez-Salas R, Abouassaly R, Shore ND, Eure G, Paciotti M, Astobieta A, Wiemer L, Hofbauer S, Heckmann R, Gusenleitner A, Kaar J, Mayr C, Loidl W, Rouffilange J, Gaston R, Cathelineau X, Klein E (2021) Comparison of micro-ultrasound and multiparametric magnetic resonance imaging for prostate cancer: a multicenter, prospective analysis. Can Urol Assoc J 15(1):E11–e16

Lughezzani G, Maffei D, Saita A, Paciotti M, Diana P, Buffi NM, Colombo P, Elefante GM, Hurle R, Lazzeri M, Guazzoni G, Casale P (2021) Diagnostic accuracy of microultrasound in patients with a suspicion of prostate cancer at magnetic resonance imaging: a single-institutional prospective study. Eur Urol Focus 7(5):1019–1026

Sountoulides P, Pyrgidis N, Polyzos SA, Mykoniatis I, Asouhidou E, Papatsoris A, Dellis A, Anastasiadis A, Lusuardi L, Hatzichristou D (2021) Micro-ultrasound-guided vs multiparametric magnetic resonance imaging-targeted biopsy in the detection of prostate cancer: a systematic review and meta-analysis. J Urol 205(5):1254–1262

Ghai S, Eure G, Fradet V, Hyndman ME, McGrath T, Wodlinger B, Pavlovich CP (2016) Assessing cancer risk on novel 29 MHz micro-ultrasound images of the prostate: creation of the micro-ultrasound protocol for prostate risk identification. J Urol 196(2):562–569

Luger F, Gusenleitner A, Kaar J, Mayr C, Loidl W (2019) Does 29 Mhz micro-ultrasound provide uniform diagnostic accuracy within and beyond the peripheral zone. Ann Urol Nehrol. https://doi.org/10.33552/AUN.2019.01.000519

Abouassaly R, Klein EA, El-Shefai A, Stephenson A (2020) Impact of using 29 MHz high-resolution micro-ultrasound in real-time targeting of transrectal prostate biopsies: initial experience. World J Urol 38(5):1201–1206

Barr RG, Cosgrove D, Brock M, Cantisani V, Correas JM, Postema AW, Salomon G, Tsutsumi M, Xu HX, Dietrich CF (2017) WFUMB guidelines and recommendations on the clinical use of ultrasound elastography: part 5. Prostate. Ultrasound Med Biol 43(1):27–48

Kamoi K, Okihara K, Ochiai A, Ukimura O, Mizutani Y, Kawauchi A, Miki T (2008) The utility of transrectal real-time elastography in the diagnosis of prostate cancer. Ultrasound Med Biol 34(7):1025–1032

König K, Scheipers U, Pesavento A, Lorenz A, Ermert H, Senge T (2005) Initial experiences with real-time elastography guided biopsies of the prostate. J Urol 174(1):115–117

Miyagawa T, Tsutsumi M, Matsumura T, Kawazoe N, Ishikawa S, Shimokama T, Miyanaga N, Akaza H (2009) Real-time elastography for the diagnosis of prostate cancer: evaluation of elastographic moving images. Jpn J Clin Oncol 39(6):394–398

Nelson ED, Slotoroff CB, Gomella LG, Halpern EJ (2007) Targeted biopsy of the prostate: the impact of color Doppler imaging and elastography on prostate cancer detection and Gleason score. Urology 70(6):1136–1140

Salomon G, Köllerman J, Thederan I, Chun FK, Budäus L, Schlomm T, Isbarn H, Heinzer H, Huland H, Graefen M (2008) Evaluation of prostate cancer detection with ultrasound real-time elastography: a comparison with step section pathological analysis after radical prostatectomy. Eur Urol 54(6):1354–1362

Tsutsumi M, Miyagawa T, Matsumura T, Kawazoe N, Ishikawa S, Shimokama T, Shiina T, Miyanaga N, Akaza H (2007) The impact of real-time tissue elasticity imaging (elastography) on the detection of prostate cancer: clinicopathological analysis. Int J Clin Oncol 12(4):250–255

Anbarasan T, Wei C, Bamber JC, Barr RG, Nabi G (2021) Characterisation of prostate lesions using transrectal shear wave elastography (SWE) ultrasound imaging: a systematic review. Cancers (Basel) 13(1):122. https://doi.org/10.3390/cancers13010122

Correas J‑M, Tissier A‑M, Khairoune A, Vassiliu V, Méjean A, Hélénon O, Memo R, Barr RG (2015) Prostate cancer: diagnostic performance of real-time shear-wave elastography. Radiology 275(1):280–289

Woo S, Kim SY, Cho JY, Kim SH (2014) Shear wave elastography for detection of prostate cancer: a preliminary study. Korean J Radiol 15(3):346–355

Woo S, Kim SY, Lee MS, Cho JY, Kim SH (2015) Shear wave elastography assessment in the prostate: an intraobserver reproducibility study. Clin Imaging 39(3):484–487

Xiang L‑H, Fang Y, Wan J, Xu G, Yao M‑H, Ding S‑S, Liu H, Wu R (2019) Shear-wave elastography: role in clinically significant prostate cancer with false-negative magnetic resonance imaging. Eur Radiol 29(12):6682–6689

Wildeboer RR, Mannaerts CK, van Sloun RJG, Budäus L, Tilki D, Wijkstra H, Salomon G, Mischi M (2020) Automated multiparametric localization of prostate cancer based on B‑mode, shear-wave elastography, and contrast-enhanced ultrasound radiomics. Eur Radiol 30(2):806–815

Zhang M, Tang J, Luo Y, Wang Y, Wu M, Memmott B, Gao J (2019) Diagnostic performance of multiparametric transrectal ultrasound in localized prostate cancer: a comparative study with magnetic resonance imaging. J Ultrasound Med 38(7):1823–1830